Automotive Pressure Sensors - Market Share Analysis, Industry Trends & Statistics, Growth Forecasts (2025 - 2030)

The automotive pressure sensors market size was USD 7.93 billion in 2025 and is projected to reach USD 11.24 billion by 2030, reflecting a healthy 7.23% CAGR.

Robust demand arises as manufacturers replace mechanical gauges with solid-state devices that feed data into software-defined vehicle platforms. Electric propulsion, autonomous-ready brake-by-wire systems, and globally harmonized emission limits each call for more pressure nodes per vehicle, lifting both unit volumes and average sensor value. Asia-Pacific continues to set the pace in production scale and new-energy-vehicle rollouts, while Europe and North America upgrade fleets to comply with the EU General Safety Regulation II that obliges tire pressure monitoring on every new vehicle class . Meanwhile, suppliers invest in silicon-carbide and capacitive MEMS designs that survive hotter exhaust and lower battery-coolant pressures, expanding the total addressable scope of the automotive pressure sensors market.

Global Automotive Pressure Sensors Market Trends and Insights

Government Mandates for TPMS Fitment

Regulators now treat tire-pressure data as frontline safety information. From July 2024, the EU General Safety Regulation II requires TPMS on every new passenger car, bus, truck, and trailer . Comparable mandates already exist in the United States, while South American and Southeast Asian governments draft matching rules. OEMs exploit the mandatory wireless backbone to layer tread-wear analytics and cloud alerts, increasing sensor value, and they prefer vendors offering encrypted protocols that pass cybersecurity audits.

Escalating Electrified-Powertrain Production

Battery-electric platforms introduce extra pressure nodes in coolant loops, brake-by-wire circuits, and closed refrigerant systems; accurate feedback prevents thermal runaway and optimizes fast-charge temperature windows. Chinese assemblers embed several low-pressure MEMS dice per module, whereas European premium brands migrate to 800-volt architectures needing stronger electrical isolation. The growing datapoint count enlarges both volume and complexity, rewarding suppliers that marry robust hardware with pack-health algorithms inside the automotive pressure sensors market.

Sensor Price-Erosion and Margin Pressure

Automakers negotiate yearly 2-3% cost reductions on legacy manifold and TPMS gauges, while Southeast Asian contract foundries replicate mature designs, compressing margins. To defend pricing, suppliers bundle diagnostics and predictive-maintenance APIs that create subscription revenue. Nonetheless, relentless cost-down targets demand lean packaging, outsourced test, and aggressive die shrinks, challenging smaller firms and tempering short-term profitability inside the automotive pressure sensors market.

Other drivers and restraints analyzed in the detailed report include:

1. Rising Integration of ADAS and Autonomous Systems
2. Stricter Global Emission and Fuel-Economy Norms
3. Semiconductor Supply-Chain Volatility

For complete list of drivers and restraints, kindly check the Table Of Contents.

Segment Analysis

Passenger cars dominate deployments, reflecting both global production scale and the rapid shift toward electric propulsion. In 2024, passenger platforms held 65.18% of the automotive pressure sensors market share and are tracking an 8.15% CAGR to 2030. Adoption accelerates as luxury marques integrate adaptive air suspension, active aerodynamics, and predictive brake servicing. Electric sedans place additional low-pressure nodes in battery chillers and cabin heat pumps, expanding sensor counts per vehicle. Commercial vans and light trucks trail in volume yet attract attention from last-mile delivery fleets that demand load monitoring and regenerative braking optimization. Medium and heavy trucks face EU mandates for TPMS on new approvals, spurring higher-range gauges that thrive in harsher duty cycles. Autonomous freight pilots employ redundant pressure circuits to satisfy fail-operational criteria. Consequently, diversified offerings across vehicle classes allow suppliers to hedge cyclical softness in any single segment, supporting sustainable gains for the automotive pressure sensors market.

Second-tier growth comes from specialized off-highway vehicles where hydraulic workloads and extended duty drive demand for high-proof-pressure diaphragms. Agricultural machinery integrates digital tire inflation control for soil compaction management, while construction equipment adopts real-time hydraulic health tracking. Though unit volumes are modest, ASPs rise because these sensors pack stainless or ceramic cells and sealed connectors. Passenger car leadership therefore coexists with profitable niches in heavy applications, enriching the overall value capture of the automotive pressure sensors industry.

Tire pressure monitoring systems generated 39.25% of 2024 revenue, cementing their role as the entry point for new regulations. Each light vehicle carries four to six wheel-well sensors, and premium fitments add a fifth spare-wheel unit. Sensor batteries last up to 10 years, creating an annuity-like aftermarket. Yet Euro 7 shifts incremental expenditure toward exhaust gas recirculation, particulate trap, and SCR dosing subsystems that now need continuous pressure feedback. These exhaust modules post the fastest 10.45% CAGR and require high-temperature silicon-carbide dies that command double the ASP of common TPMS units. Brake and ABS pressure sensing remains a steady core, though migration to brake-by-wire introduces finer resolution and redundancy that raise device count. Engine manifold, fuel rail, and turbo boost sensing evolve toward higher accuracy at large pressure swings, keeping legacy demand intact even as electrification proceeds. Across every bandwidth, the automotive pressure sensors market benefits from diversified application pull, with compliance spend fueling near-term spikes and software-enabled health features creating longer-cycle revenue.

Inside the cabin, smart airbag modules employ barometric pressure information to improve occupant classification. Next-generation climate control leverages vapor-compression monitoring to optimize refrigerant charge in heat pumps common to EVs. Ride-control systems embed fast 10 kHz pressure pick-ups to regulate semi-active dampers. As sensor counts expand, multiplexed digital buses replace analog lines, simplifying harness weight and boosting reliability. The widening scope underlines how the automotive pressure sensors market continues to migrate from single-purpose analog gauges to networked digital nodes that feed centralized domain controllers.

The Automotive Pressure Sensors Market Report is Segmented by Vehicle Type (Passenger Cars, Light Commercial Vehicles, and More), Application (Tire Pressure Monitoring System (TPMS), and More), Pressure Type (Absolute, Differential, and More), Sensor Technology (Piezoresistive MEMS, and More), Sales Channel (OEM-Fitted and Aftermarket), and Geography. The Market Forecasts are Provided in Terms of Value (USD) and Volume (Units).

Geography Analysis

Asia-Pacific remains the volume engine for the automotive pressure sensors market, leading with 49.66% share in 2024. The region is further projected to grow with a 9.66% CAGR by 2030, as China accelerates electric-vehicle production and embeds multiple low-pressure nodes for battery safety. Local makers benefit from national content mandates that incentivize domestic MEMS sourcing, reducing import reliance. India scales automotive assembly clusters in Gujarat and Tamil Nadu, fostering regional sensor supply chains alongside powertrain electronics. Japan sustains leadership in micro-machining tools, feeding outsourced wafer fabrication for global brands, while South Korea leverages its consumer-electronics fabs to push sensor miniaturization. Government subsidies for smart mobility labs keep regional design cycles short, enhancing competitiveness.

North America combines regulatory pull with technology push. NHTSA rules on TPMS and EPA emission standards ensure baseline demand, while Silicon Valley software stacks accelerate the shift to centralized domains that favor digital pressure protocols. Detroit OEMs localize battery pack assembly and thermal management integration, increasing domestic sensor content. Canada's heavy-truck sector adopts high-accuracy tire inflation control for fuel-efficiency gains, extending sensor use into vocational applications. Mexico's Tier-2 ecosystem supplies molded housings and lead frame stampings, supporting regional cost optimization across the automotive pressure sensors market.

Europe's policy landscape is the most stringent. Euro 7 legislation forces real-time exhaust monitoring, driving uptake of SiC high-temperature sensors . The General Safety Regulation obliges TPMS on every vehicle class, elevating sensor density in trailers and coaches. Germany's premium OEMs specify dual-redundant brake pressure modules for Level-3 autonomous approval. France and Italy channel recovery funds into electric-bus projects that integrate advanced battery coolant sensing. Eastern European plants attract new MEMS packaging investments, exploiting competitive labor while staying inside the common market. Altogether, synchronized regulations and sophisticated end-users stabilize long-run demand across the automotive pressure sensors market.

1. Robert Bosch GmbH
2. Continental AG
3. Sensata Technologies, Inc.
4. DENSO Corporation
5. Infineon Technologies AG
6. STMicroelectronics N.V.
7. NXP Semiconductors N.V.
8. Texas Instruments Incorporated
9. Autoliv Inc.
10. Allegro MicroSystems, LLC
11. TE Connectivity Ltd.
12. Honeywell International Inc.
13. Analog Devices, Inc.
14. Melexis NV
15. Aptiv PLC
16. Amphenol Advanced Sensors
17. Alps Alpine Co., Ltd.
18. Bourns, Inc.
19. Nidec-Copal Electronics

Additional Benefits:

• The market estimate (ME) sheet in Excel format
• 3 months of analyst support